Machine and method for making nut blanks



Nov. 12, 1940. J. J. M LAUGI- -l LIN MACHINE AND'METHOD FOR MAKING NUT BLANKS Filed Dec. 21, 1938 8 Sheets-Sheet 1 CL ITJ IIIIII INVENTOR Joli/z J M Lazy/d511 ATTORNEY' Nov. 12, 1940. J. J. M LAUGHLlN MACHINE AND METHOD FOR MAKING NUT BLANKS Filed Dec. 21, 1938 8 Sheets-Sheet 2 lNVENTOR .John .1 M Zazg/z 1m ATTORNEY J. J. M L'AUGHLIN MACHINE AND METHOD FOR MAKING NUT BLANKS Nov. 12, 1940-.

Filed Dec. 21, 1958 s Sheefi Sheet a "ATTORNEY NOV. 12, 1940. MOLLAUGHLN H MACHINE AND METHOD "FOR- MAKING NUT BLANKS V Filed Dec. 21, 1938 8 sh eets-sheet. 4

INVENTOR I, Jolz aJj lfldayklah BY m A ORNEY Nov. 12, 1940. E m ue m 2,221,598

- MACHINE AND METHOD FOR MAKING NUT BLANKS I Filed Dec. 21,- 1 938 a #Sheets-Sheet s cxrma FINGERS mERcEmG PUNCH DETECTOR FINGER Y sum-me FEEDER 2 1 a M w 4 1 .8. a M k =1 0 2a 0 m 0 t I l'gEn FMG'ERS r OFFSET PUNCH MAM FEEDER @J 2 f l CUTOFF PUNCH 000009 p oooeooogooopoo la so 0 85 B A l -fl8 Q0 I I f v I C a 8 T: .5. I 2/ B QWZQQF 8/ Y: .12 2 44/ 4M 2 44 k a M g 91 fa M 1 Jzr Q 5 A E a ATTORNEY J-. J. MOLAUGHLIN ,221,598

. MACHINE AND METHOD FOR MAKING NUT BLANKS 8 Sheets-Sheet 6 Nov; 12, 1940.

Filed Dec. 21, 1938 lgiBY. Z

ATTORN EY w 1940- J. J. M LAUGHLI'N 2,221,598.

' MACHINE AND METHOD'FOR MAKING m BLANKS 8 Sheeis-Sfieet 7 Filed Dec. 21, 1958 NEY Nov.'12,' 1940. J. J. MQLAUGHLIN MACHINE AND mamon FOR MAKING UT BLANKS Filed Dec. 21, 1938 Patented Nov. 12, 1940 UNITED STATES PATENT OFFICE MACHINE AND METHOD Foa MAKING NUT BLANKS Application December 21, 1938, Serial No. 246,930

27 Claims. (C1. 10-76) This invention relates to machines for'con-' tinuous, large-quantity production of separate blanks from bar stock that has been shaped so as to form a series of connected, partially-shaped blanks. In this case, the invention is shown as embodied in a machine in which the blanks are nut blanks and in the preferred form the edges of the bars have been notched to form partiallyshaped hex blanks, preferably with notches that approximate the 120 angle required for a ser rated bar with hex peak edges; but most features of the invention are applicable to the manufacture of hex nut-blanks from bars that have spaced-apart, 60 notches; or that are facerolled to partially form connected blanks for square nuts; and some of the. features are applicable for making other shaped articles from other forms of partially-shaped blank bars.

In such machines, the bars formed with the connected, partially-shaped blanks, are advanced step-by-step, and between steps are held stationary in exact registry with successive tools for performing successive operations on the blanks. For nut blanks,=these operations commonly in- I clude punching a cylindrical hole through the In most cases the severing, and the trimming of the'severed blanks, are effected without an intermediate spacing step, the blank being cut forced through the trimming die by 'a single reciprocation of the press. While this is true in the present case, one novel feature of my invention is effecting a partial severing of the pierced blank a step or two in advance of th cut-oi! 'and trim, as will be explained. There'are. various difllculties in performing even the two-step method of doing heavy preliminary work such as piercing the hole in one blank while also doing other heavy finishing work such as severing a previously-pierced blank at or near the end of the same bar. I have discovered that the piercing stretches the metal radially of the punch and this stretching causes changes in shape as well as dimensions of the blanks.

rhave found by experience that these difficulties make it impractical to perform all these operations in a single press, and my present invention contemplates obviating them by providing'two separate press blocks, one for the piercing operation and another for the severing and trimming. These separate presses are reciprocated in proper time relation to one another and to the intermittent feed mechanism, preferably from the same power shaft.

Another important feature is having the main 6 the bar by ratchet-like fingers that slip over 15 the serration on the rearward movement and have an excess of rearward movement so that in operation they move forward a slight distance before engaging the forward faces of the notches. This forward lost motion is always greater than any possible stretching of the blanks so that the only accurate adjustment required is the one necessary for accurately gauging the location of the fingers at the end of their forward feed movement. Mechanism very suitable for this purpose is shown in the patent to Jones, 2,085,590, and as a matter of fact the mechanism shown inthis patent was designed primarily for combination with this type of machine, as

indicated page 1, line '7, and elsewhere in said so machine until it has passed the perforating 35 punch and has reached the main feeder, where-t 'upon the auxiliary feeder is thrown out of opera'tion and reciprocates idly until it becomes ing block with reciprocating pilot member adapt ed to wedge edgewise between slanting surfaces of a notch or other depression in each partially formed blank. This pilot wedgeis accurately located in the piercingblock parallel with and 5 "properly spaced with respect to the piercing punch, and when wedged over the barit operates to shift both its block and its die block parallel with the stock, so' that the piercing tool and die are shifted into exact registry with the center of each successive blank. To permit this, the piercing blocks are mounted on rollers and are connected so that both blocks shift equally. If the longitudinal shifting of said blocks exceeds a predetermined limit, the shift operates to open the circuit of the main drive motor, thereby stopping the entire machine.

The shiftable piercing block also carries a detector finger which is located beyond the piercing tool in exactly the right position so that it normally reciprocates freely through each pierced hole, but it is slidable endwise and if the piercer has been broken oif or the hole is otherwise obstructed, the obstruction causes the finger to slide reversely, whereupon other suitable mechanism opens the circuit of the main driving motor, thereby stopping the entire machine.

One object in locating the main feeder between the two press blocks, is to have said feeder only a blank or two away from the severing tools in the second press block, so that the pierced blanks are registered very accurately with said tools. These include an offsetting tool whereby successive blanks are displaced fiatwise a distance which is relatively slight as compared with the thickness of the blank. The metal is thus partially sheared, and the distortion of the unsheared part of the metal is localized so nearly in an exact transverse plane, that final shearing is easily localized in said plane. Thereafter. continued step-by-step feed brings this transverse plane of the end blank into exact re istry with the final shear punch. Here the pilot pin of the shear punch engages the central hole in the end blank; shears the blank in said transverse plane; and pushes it into the entrance end of the trimming die, where it remains until succeeding nuts push it through said die and out of the discharge end thereof.

This machine is readily adaptable for making square nuts. In such case, the stock is without edge notches, but the fiat faces are rolled to form a'succession of crowned blanks each having a partially formed central hole. To use this stock in'the machine requires only changing the stock engaging member of the feed mechanisms and the tools. In such case, a single, laterally-swinging feed finger or. pawl is used,.anol this has a projection which accurately fits the forward wall of the partially formed central holes in the blanks. A centering or locating punch is used in the first press which accurately fits into said partially formed hole, and serves the same purpose as the pair of edge-notch wedges used for hex blanks. The tools are of course changed from hexagon to square, but the functioning of the feeds, and

of first and second presses, is otherwise substantially the same for hex nuts and square nuts.

The above and other features of my invention may be more fully understood from the following description in connection with the accompa yin drawings. in which Figs. 1 and 2 taken together, constitute a plan view of themachine, Fig. 1, Sheet 1, being the entrance half of the machine, and-Fi 2, being the cutoff and trim half of the machine;

Figs. 3 and 4 similarly taken together, constitute a longitudinal section of the machine on the line 3-3, Fig. 1, and 41-4, Fig. 2;

Fig. 5 is a front end elevation of the reciprocating press block which carries the piercing punch;

Fig. 5a is a similar view of a modification;

Fig. 6 is a similar view of the reciprocating press block that carries the ofls'etting and cutoff tools;

Figs. '7 and 8 taken together constitute a schematic view showing the successive operations on the stock bar;

Fig. 9 is detail horizontal section on the line 9-9, Fig. 5, showing the relations of the piercing punch and die, to the locating wedge fingers in advance of them, and to the detector finger beyond them;

Fig. 10 is a detail vertical section on line Ill-m, Fig. 1, showing the mechanism whereby, when the central hole in the nut is not punched, or is obstructed, a switch is thrown to stop the entire machine;

Fig. 11 is a detail side elevation of another stop mechanism whereby the machine is stopped when shift of the piercing press blocks exceeds a predetermined limit;

Figs. 12 and 13 are horizontal sections like Fig. 20 9, but showing the offsetting and shear punches of press B; Fig. 12, showing the position of the parts just after the shear; and Fig. 13, at the end of the forward stroke when the offsetting punch has completed its work and the shear punch has deposited the blank in the trimming die;

Figs. 14 and 15, taken together, are a plan view like Figs. 1 and 2, but showing the simple changes necessary for making square nuts, instead of hex $0 I nuts; and

Fig. 16 is a detail horizontal section showing the feeding pawl and stock bar for square nuts.

Referring to combined Figs. 1 and 2, constituting the plan view of the machine as equipped I for making hex nuts:

The principal group mechanisms constituting the machine, comprise the piercing press of which A is the reciprocating member and A the sta: tionary member; the cutofi press of which B is the 40 reciprocating member and B the stationary member; the intermediate main feeder of which C is the reciprocating stock engaging member, C the means for .driving said member in proper timed relation to reciprocating press members A 45 ahd B, C the friction rolls at the entrance and to the machine, which afiord the resistance against which this main feeder pulls the stock; and finally, the auxiliary feeder of which D is the reciprocating stock engaging member, D the reciprocating mechanism for driving stock engaging member D in proper timed relation to the piercing press A, and C which are the same friction rolls that normally serve the main feeder As noted above, the main and auxiliary feeders are preferably alike and are driven from the same main shaft as the presses, by cams like those shown in Jones Patent No. 2,085,590. The stock engaging members for the edge notched bars used for hex nuts are like those in all the principal figures of said patent; and the stock engaging pawl for square nuts is preferably like the modification shown in Figs. 11 and 12 of said patent. For this reason, it is not necessary to more than briefly identify the main features of said feeders.

As shown in Fig. 4, the notch-engaging fingers 2, are pivoted to a head 2a, which is rigidly secured to an arm 217 by bolts 20 passing through slots 2d, whereby the arm is longitudinally adjustable on slide 20 by means of screw 2e. As shown in Figs. 2 and 4, this slide is reciprocated lengthwise of the machine through 8. depending anti-friction roller 2ffitting in a diagonal slot 20 in the face of a cylindrical member 2h, pivotally adjustable in a transversely reciprocating slide 2i, by screws 22. The fingers 2 are mounted on pivots 29' which are keyed to gear segments 2k 5 whereby the fingers swing equally and oppositely in toggle relation to opposite notches in the-blank bar, and are normally spring pressed into such engagement by spring 2m. Inward swing is limited by tail piece 2n engaging one face of a cam 2:) controlled by lever 2q which can be rotated by pushing rod 2r to the left, thereby rotating the cam to depress the tail piece and swing the free ends of the fingers 2 out of the bar notches. In the present case, they can be automatically thrown out by an adjustable stop member 23 on bar 2t, pivoted to lever Zu, having an end 21) which is adapted to bear upon the edge of the blank bar in the stock guideway, and

is normally spring pressed into engagement 2o therewith by spring 2w. This automatic finger shift mechanism will remain in the position shown in Fig. 4 until the stock is no longer supplied to the machine. Thereafter, the spring 210 automatically swings lever 21:, thereby rotating g5 cam 2p and throwing fingers 2 out of engagement with the stock. The transverse slide 2i is reciprocated in parallelism with presses A and B, and preferably by cams on the same shaft, as described in said Jones patent.

.l The auxiliary feeder D is preferably the same as main feeder 0, except that the throw-out 2p is rotated by hand-lever 2x, to throw out fingers 2a and the automatic throw-out being omitted.

These feed mechanisms are specially adapted to cooperate in combination, so that the main feeder can non-interferingly pick up feed of the pierced part of the serrated bar as soon as the auxiliary feeder has advanced said bar to said lnain feeder. The fingers are non-positively 4 spring-pressed into the notches of the blank bar. Consequently, the diagonal slots 2g, can be and preferably are adjusted so as to make the reciprocations longer than the'distance between the rear feed faces of successive bar notches. So the exact location of the end of th forward feed movement is all that is important; and this may be exactly predetermined for each feeder independently of the other, by adjusting their respective screws 2e.

As described in the Jones patent, the idle roll assembly C at the entrance and of the machine, has its frame bolted to the frame of the auxiliary feeder D, and the latter is bolted to the frame of piercing press A. The piercing press frame is bolted to the frame of the intermediate main feeder C, and the latter is bolted to the frame of the offset, cutoff and trim press B.

As shown in Fig. 1, the rolls 3 are'carried on slides 30 by pins 3b and are adjustable to or from the stock by screws 30 and are there held by clamping bolts 3d. Rolls 3e are carried by gate U which swingsbn pin 3a in the main housing. The gate is held in position by an eccentric 3h rotatable on pivot studs 3i. These rolls nay serve the-double purpose of straightening the stock and holding the stock from backing up on the rearward strokes of the arm and fingers.

The auxiliary feeder D feeds the stock step by step through press B where the nut blanks are (0 centrally pierced, and then onward until the fingers of themain feeder C can fall into the edge notches of the stock, whereupon the auxiliary feeder D is thrown out as described above, and

main feeder C is' thrown in. Thereafter, the main 7'5 feeder pulls the stock through the piercing press A and pushes it into offset, cutoff and trim press B As best shown in detail views Figs. 5 and 10, the piercing slide A is formed or provided with a rectangular housing 4, which carries the punch. 5 block 4a; and this punch block is mounted in the housing so that it can slide a limited distance parallel with the direction of feed of the stock. To permit this it is mounted on roller bearings 4b, which turn on pins 40 held in place by caps 10 4d. To prevent rearward movement, the punch block slides on ,a. hardened steel wear piece 4e, which is bolted to said housing. The housing is held down on the roller bearings by gibs 4f, 4}; and, as shown in Fig. 1, the housing is prevented 15 from moving away from the steel wear piece ,by gibs 4g, la. The piercing punch in is held in its holder 4: by set screw 41. This holder in turn is carried by the punchblock 4a. The punch block also carries the centering or locating fingers m k in advance of-the. punch, and also an automatic stop pin 4m, beyond said piercing punch. Spacing blocks are placed between these several parts and are held together by wedge 4n. Clamp 4p is bolted down on the punch block and carries set screws 41' which hold down the several parts.

The locating fingers 4k are designed to slide endwise into wedging fit with'adjacent hex edges of the bar, and the bar being held stationary by the roll assembly C, any irregularity in lengths of blanks will have the effect of camming the entire punch block parallel with the direction of feed, thereby bringing the punch in exact registry with the center of a blank to be punched. In Fig. 5, the wedging surfaces of It are designed to wedge outward against adjacent surfaces of a notch; but in Fig. 5a, the surfaces 4a: are designed to wedge inward against adjacent surfaces of a peak. The latter form is preferable because bar peaks are rolled by roll valley sur- 40 faces, which wear and change contour less than roll peak surfaces.

As shown in Figs. 1 and 3, the stationary frame A of the piercing presshas rigidly secured theretma stationary rectangular housing 5, in which 45 v a rectangular die block 5a is rigidly held against rearward movement by hardened steel wear piece 5b and against forward movement by gibs 5c. This die block carries the piercing die 5d. -As shown in Figs. 3 and 9, the punched-out slugs 5e are forced out through passage 51/; and the face of the die block 5a has clearance holes, "512, for the locating fingers 4k, and 510 for the detector finger 4m; and has secured to it a stripper 5.1: for piercing punch 4h. 55

The die block 5a is mounted in housing 5,-on roller bearings 5f which turn on pins 5g, held in place by caps 5h; so that it can slide parallel with the direction of feed of the stock, the same distance as piercing block la.

To keep the non-reciprocating piercing die in exact alignment with the reciprocating punch, the bottom of the punch block la is provided with a rigidly secured bar it, which extends transversely below the path of-move nent of thestock bar, 5 and which endwise slidably fits the die block in;

I so that when the locating fingers 4k cam the punch block parallel with (the direction of feed of the stock, said bar It will. shift said die block exactly the same distance,

To prevent such shifting movement of the punch and die blocks during times when the stock is being fed through the machine, intermittently operating clamping mechanism is provided, comprising the clamping lever 5k having an adjustable set screw 5m, which contacts with a knurled plate in on die block a. This lever is keyed and clamped to shaft 5p, which turns in bearings Sr and is. This shaft has keyed to one end, a lon'g'depending lever 5t which is actuated in proper timed relation by a cam (not shown) on the main shaft of the machine. The movement of this mechanism is so timed that the set screw 5m clamps the die block, and prevents lengthwise shift thereof, during times when the stock is being fed through the machine.

When the above described shift of the piercing and die blocks exceeds a certain predetermined maximum, in either direction, it automatically operates a switch, which stops the main drive shaft. By reference to Figs. 1 and 2 in the region of the broken line where they join one another, in connection with the detail view Fig. 11, it will be seen that the shiftable die block has a stem 6 tapped into it, which passes through the housing 5; and, on the projecting end of said stem, is fastened a collar 5b. In the path of endwise shift of this collar are spaced apart anti-friction rollers Gc'on pins dd, carried by horizontal arms be of spaced-apart bell crank levers pivoted at bf and each having an' upwardly extending arm 69. To the upper ends of said bell crank arms by are pivoted thrust rods th which are endwise slidable in bracket 6i, and said rods are spring pressed rearwardly by springs 67' pushing against said bracket 61' at one end-and againstrod collars ti at the other end. On the end of each rod th, where it projects beyond bracket 5i, is an adjustable stop collar 6k. These stop collars 610 are each tensioned against the bracket Si by its spring Eli, and said stop collars are adjusted so as to bring the rolls 6c on the lower ends of the horizontal arms 62, just clear of the stem 6 which is carried by the die block; but if and when said stem shifts endwise beyond a predetermined limit in either direction, its collar 5b will contact with one or the other of said rolls and will push the horizontal arm thereof upward. On the upper end of a fixed bracket tm, are two electric switches 611, 612, each controlling the driving motor circuit and when either rod th is thus thrust forward, it pushes against its switch 611., thereby opening said switchand stopping the driving motor and the machine.

The detector finger 6m is located exactly where a pierced hole should be when the punch 5h is piercing a hole in a following blank; and in Fig. 5, the finger is exactly two blank lengths beyond said punch. The mechanism whereby the finger can operate a switch to stop the machine, is shown in the plan view at the right hand end of Fig. 1, taken with the left-hand end of Fig. 2; and it is shown-in the secti nal side elevation in Fig. 10. The tip dsof 5m is exactly the right size to slide endwise in the pierced hole at the end of every forward reciprocation of the punch on the stationary frame of the press.

slide, but, as shown in Fig. 10, finger 6m. is slidable endwise in block du; and its rear end lvis in position to contact with depending'lever arm I of the switch operating mechanism.

The arm-1 is keyed on shaft la which is rotatable in bracket lb carried by the slide A.,- Shaft Ia extends endwise over the frame and has keyed to it the horizontal lever arm 'lc, which is provided with an adjustable set screw Id engaging the lower face of another horizontal lever 'le, which is rotatably mounted in a bracket If, The free end of this lever i e extends under an anti-friction roller lg on the end of a third lever, in, which is adjustably clamped on a rotary shaft Ii,which operates switch mechanism in a casing 1:), which is bolted to bracket lie on the frame of the press.

With the parts adjusted to the position shown, reciprocation of the punch block carries the detector finger into and out of the successive pierced holes presented to it, but if the hole is not presented, orif it is blocked in any way, the detector 6m. is pushed backward and through the mechanism shown, lifts the lever le, and throws the switch, thereby stopping the machine.

After being gauged by locating fingers, pierced by the piercing punch, and holestested by the detector finger, the pierced stock strip ultimately reaches the feed fingers of the main feeder C; whereupon the auxiliary starting feeder D is thrown out and the main feeder thrown in. Thereafter the feed and location of the blanks in the piercing press is controlled solely by the location of the main feeder fingers 2, when at the end of their forward strokes. I'hat is why the piercing blocks are slidable and have their positions shiftably fixed by the locating fingers tic, by and in accordance with any variations of total length of intervening pierced stock. At this time, changes in shape or length of the intervening blanks, or their notches, which may have been caused by piercing, can be relied upon as very nearly uniform; and such minute non-uniformities as can occur, normally average out enough to be taken care of within the limits of shifts that' will not operate the stop switch 6n. So the location of the main feed fingers 2 at their forward stroke, bears the same relation to the tools of the offset and cutoff press that the locating fingers 8k have to the piercing punch; and

such location of the feed fingers is secured by careful adjustment of the main feeder arm 2b on its reciprocating carriage by means of the rear thrust screw 2e. Preferably this location is exactly in the second bar notch rearward from the shearing edge of the offsetting tool.

As shown in Figs. 2 and 6, the slide B of the offset, sever, and trim press, carries a punch block 8 laterally engaged vby thrust'screw 8a and held down by bolts 8b. The offsetting punch 80 is held sidewise by filler 8d and wedge 8e and is held down by clamp Bf secured by bolt tg, pressure being maintained on said wedge by screws 6h. The cutoff punch 87 rests in shoe 8i and is held down by clamp 8k and clamp screws 8m.

The offsetting punch 80 and the cutoff punch 87' are independently adjustable endwise, by backing screws to to regulate precisely the depth of their movement toward the respective offset and trimming dies. These screws have heads of substantial diameter, so as to serve as adjusting means for the respective punches, when the latter are spaced further apart, for larger nuts.

,is held down by nut and stud'screw, By. The adjustable housing 941 is clamped against housing 9 by bolts 9n; and is raised or lowered by screws oil The trimming die assembly 9b is rigidly screwed to the front face of the rear wall of the adjustable housing 9a; and is adjusted by adjusting said housing,

As shown in Fig. 2, the front die block Bc'is tensioned rearwardly by T-headed bolts 91!. and,

as shown in Fig. 4, the T-heads of these bolts fit loosely in slideways 9r,'so as to permit vertical and longitudinal adjustment of said die block. The vertical adjustment is by means of screws 93, which apply thrust against the heads of bolts the die block 90. The offsetting die 97' (see Fig.,

12) is held in place by set screw 8k. A stripper 9m for stripping the stock from the punches, is

bolted to the face of the die block;

Nuts, chips, and oil aredischarged through an open, down-sloping channel 9v.

The operative relations of the cutoff and severing punches and dies, to each other, and to the stock, are shown. in Figs. 12 and 13. In Fig. 12, the cutoff punch 87' has severed the end nut and pushed it part way through the shearin die 9.1:. As shown in Fig. 13, completion of the forward stroke of the cutoff punch pushes the severed nut blank into the top of the trimming die 9b; and, at this point, the oflsetting shear punch has offset a blank, a distance which is very small as compared with its thickness, but is sufficient to weaken the metal in the transverse plane of the offset, as above described, thereby 0 making it easier for the cutoif'punch to sever it.

It will be obvious that the above described machine may be used for making nut blanks of any desired size, provided the length of the bar stock be at least equal to the distance between the auxiliary starting feeder D, and the offsetting punch ilc. In such case the piercing press, and the cutoff and shear press will operate successively on bars-of said lengths, and these bars may be fed to the machine one after another, but any such discontinuity in the length of stock tends to introduce irregularities in the distance between the pierced holes of adjacent ends of the successive stock bars. For this reason, the machine is peculiarly adapted for making nuts which are small enough" to permit the use of blanks thin enough to be sprung flatwise, sumciently to make a coil. In a special case, strips for S. A. E. nuts have been edge-rolled and then curved flatwise to form coils of large diameter, say, four feet. With large enough diameter, the individual blanks have very little curvature, and what little curvature there is, can be taken out in the friction rolls 0, without causing any measurable distortion of the individual blanks.

' As shown in. Figs. 14, 15 and 16, the above machine can be used for making square nuts,

by substituting blank bars having plane parallel edges and face rolled depressions; instead of hex edge notches; substituting feeder arms each having a clamping finger adapted to engage the face rolled depressions; substituting a locator adapted to fit said depressions; and substituting a square cutofi and trim punch and die.

As shown in Fig. 16, the bar blank :0, has depressions 2: rolled in one or both faces; also one face is rolled with crowns :0 also the other face is fiat. The laterally swinging finger I! has a projection l3 fitting into the depression 1: and it wedges the blank bar against the vertical surface ll ofa channel arm IS. The construction and operation of this feeder is the same as that shown in Figs. '11 and 12 of the Jones patent above referred to. The channel arm l5 has slots id to be held by bolts 20, the same as for the hex bar feeder. The finger is mounted on a pivot l6 rotatable in a bracket 11 on said arm.

The pivot has non-rotatably secured to it a tail piece l8 urged by spring l9 against a stop surface on the periphery of a throw-out cam 20 pivoted at 2| and which has a second cam face.

This cam can I more remote from the pivot 2|. be rotated by handle 22 to hold the finger l2 away from the blank bar, and lock it in the inoperative position.

The only other change required for the piercing press is the locating finger 23 adapted for wedging engagement with the partially pierced depression :2, in the face of the blank. It is 'endwise slidable in the holder 24, as shown in Fig. 14; and is normally spring-pressed forward by plunger 25 which is actuated by spring 26.

As shown in Fig. 15, the main feeder is the same as the auxiliary feeder described above and the offsetting tool, cutoff and trim plunger 28 and the trimming die 29, are the same as those shown for the hex blanks, except that they are square instead of hexagonal.

I claim:

1. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step- .by-step feeding, piercing, and severing, successive blanks, which method includes applying pre.-' determined non-positive resistance to feed on the incoming stock at a point in advance of the piercing point; piercing successive blanks, there: by expanding each blank and lengthening the strip to the full extent required for completed blanks which are to be severed from the end of with the severing punch by successive steps, each equal to the length of one blank, while also pulling the strip to sistance.

-2. A method ofmaking nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by stepby-step feeding, piercing, and severing, successive blanks, which method includes applying predetermined non-positive resistance to feed on the incoming stock, and pulling it positively step by step through the piercing mechanism while pushing it through. the severing mechanism; utilizing the depressions in the stock to shift the position of the piercing mechanism by and in accordance with depressions in blanks approaching said piercing mechanism; and piercing one of the blanks while testing the accuracy of the piercing of a blank previously pierced, and utilizing inaccuracies to stop the machine.

3. A method of making nut blanks from stoc bars or strips having depressions outlining a series of substantially uniform blanks, by step-bystep feeding, piercing, and severing, successive blanks, which method includes applying resistance to feed on the incoming stock, and pulling it step by step through the piercing mechanism overcome said non positive re- ;while pushing it through the severing mechaapproaching said piercing mechanism; piercing the piercing of a blank previously pierced, and utilizing inaccuraciesto stop the machine; and

- the severing including slightly offsetting the blank to weaken the metal in the transverse plane of the offset and thereafter severing successive blanks from the end of the stock, in the plane of said oflset.

4. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing, and severing, successive blanks, which method includes applying resistance to feed on the'incoming stock, and pulling it step by step through the piercing mechanism while pushing it through the severing mechanism; the severing including slightly offsetting the blank to weaken the metal in the transverse plane of the offset and thereafter severing successive blanks from the end of the stock, in the plane of said oflset.

5. A method of making nut blanks from stock bars or strips having depressions outlining. a series of substantially uniform blanks, by step by-step feeding, piercing, and severing, successive blanks, which method includes applying resistance to feed on the incoming stock, and pulling it step by step through the piercing mechanism while pushing it through the severing mechanism;

' the end of the stock,

and piercing one of the blanks while testing the accuracy of the hole in a blank previously pierced, and utilizing inaccuracies of the spacings of said depressions to stop the machine as a whole.

6. A method oi making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing, and severing, successive blanks, which method includes severing the stock by first slightly oifsetting each blank" to weaken the metal in the transverse plane ofthe oflset, and thereafter severing successive blanks from in the plane of said offset.

'7. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing, and severing, successive blanks, which method includes severing the stock by first slightly offsetting each blank to weaken the metal in the transverse plane of the offset, and thereafter severing successive blanks from the end of the stock, in the plane of said oifset; and utilizing the depressions in the strip to gauge the position of the piercing mechanism by and in accordance with depressions in blanks approaching said piercing mechanism.

8. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing, and severing, successive blanks, which method includes severing the stock by first slightly offsetting each blank to weaken the metal in the transverse plane of the onset, and thereafter severing successive blanks from the end of the stock, in the plane of said offset; utilizing the depressions in the strip to gauge the position of the piercing mechanism by and in accordance with depressions in blanks approaching said piercing mechanism; and piercing one of the blanks while testing the accuracy of piercing of a blank previously pierced and utilizing inaccuracies to stop the machine.

9. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing, and severing, successive blanks,

' in the strip to shift the position of the piercing mechanism by and in accordance with depressions in blanks approaching said piercing mechanism.

11. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding, piercing and severing successive blanks, which method includes pulling the strip through the piercing mechanism and pushing it through the severing mechanism; and utilizing the depressions in the strip to longitudinally shift the position of the piercing mechanism by and in accordance with depressions in blanks approaching said piercing mechanism.

12. A method of making nut blanks from stock bars or strips having depressions outlining a series of substantially uniform blanks, by step-by-step I 13. A method of making nut blanks from stock bars or strips having depressions outlining a series A of substantially uniform blanks, by step-by-step feeding, piercing and severing successive blanks,

which method includes pulling the strip through.

the piercing mechanism and pushing it through the severing mechanism: utilizing the depressions in the strip to longitudinally shift the position of with depressions in blanks approaching said the piercing mechanism by and in accordance piercing mechanism; piercing one of the blanks while testing the accuracy of piercing of a blank previously pierced and utilizing inaccuracies to stop the machine; and utilizing excessive shift to stop the machine.

14. A machine for making nut blanks from stock bars and strips having depressions outlining a series of substantially uniform blanks, which includes frictional rolls for applying predetermined, non-positive resistance to feed on the incoming stock, reciprocatory piercing mechanism, reciprocatory severing mechanism, and intermediate said piercing and severing mechanism, positive step-by-step feeding means adapted to engage successivepierced blanks to pull the stock through the piercing mechanism and push itthrough the severing mechanism, the length of each feeding step being equal to the length of the blank engaged by said feeding means.

15. A machine for making nut blanks from nism, reciprocatory severing mechanism, interstock bars and strips having depressions outlinand push it through the severing mechanism;

ing a series of substantially uniform blanks, which includes reciprocatory piercing mechanism, reciprocatory severing mechanism, intermediate step-by-step feeding means adapted to pull the stock through the piercing mechanism said piercing mechanism including a reciprocating piercing punch block and a stationary piercing die block, both shiftable longitudinally of the direction of-feed, and means for shifting them including a blank locating device carried by the reciprocating block, adapted for wedging engagement with a depression a predetermined number of blanks in advance of the piercing punch.

17. A machine for making nut blanks from stock bars and strips having depressions outlining a series of substantially uniform blanks, which includes reciprocatory piercing mechanism, reciprocatory severing mechanism, intermediate step-by-step feeding means adapted to pull the stock through the piercing mechanism and push it through the severing mechanism; said piercing mechanism including a reciprocating piercing punch block and a stationary piercing die block, both shiftable longitudinally of the direction of feed, and means for shifting them including a blank locating device carried by the reciprocating block, adapted for wedging engagement with a depression a predetermined number of blanks in advance of the piercing punch; and means for stopping the machine when said shift of said piercing mechanism exceeds a predetermined limit in either direction.

18. A machine for making nut blanks from stock bars and strips having depressions outlining a series of substantially uniform blanks,

which includes reciprocatory piercing mechanism, reciprocatory severing mechanism, intermediate step-by-step feeding means adapted to pull'the stock through the piercing mechanism and push it through the severing mechanism; and a detector finger'and a movable member by which it is carried into engagement with the stock, a pre- -it is carried into engagement with the stock, a

' predetermined number or blanks beyond the punchblock and a stationary piercing die block,

both shiftable longitudinally of the direction of feed, and means for shifting them including a blank locating device carried by the reciprocating block, adapted for wedging engagement with a depression a predetermined number of blanks 5 in advance of the piercing punch; and means for stopping. the machine when said shift of said piercing mechanism exceeds a predetermined limit in either direction.

20. A method of making nuts from stock bars 1 or strips having depressions outlining a series of substantially uniform blanks, by step-by-step feeding of the bar to pierce successive blanks, which method. includes applying non-positive approximately constant resistance to endwlse 15 movement of the stock and positively pushing the stock step-by-step against said resistance into approximate registry with the piercing punch and die; and utilizing the depressions in the stock to shift the position of the piercing punch and die in 0 accordance with the depressions in blanks approaching them.

21. A method as specified in claim 20 and wherein the depressions are hex valleys and peaks in the edges of the stock barand adjacent sides of the same hex valley areutilized to shift the position of the piercing punch and die.

22. A method as specified in claim 20 and wherein the depressions are hex valleys and peaks in the edges of the stock bar and adjacent sides of the same hex peak are utilized to shift the position of the piercing punch and die.

23. A method asspecified in claim 20, and

wherein the depressions include centered, partly formed punch holes in the sides of the blanks and 95 the sides of said holes are utilized to shift th position of the piercing punch and die. 24. ha machine for making pierced blanks from stock bars or strips having. depressions outlining a series of substantially uniform blanks, by 40 step-by-step feeding of the bar to pierce successive blanks, means for applying approximately constant resistance to endwlse feed movement of the stock, pawl and ratchet mechanism for feeding the bar step-by-step against said resistance A into approximate registry with a punch and die of a reciprocating piercing press, means permitting shift of the press lengthwise of the stock, and locating fingers carried by the press, adapted for endwlse wedging engagement with successive j depressions in blanks approaching the punch,

thereby to hold or shift the position of the piercing punch and die to center them on a blank that 1 has been stepped-into approximate registry therewith. J

wherein the depressions are hex valleys and peaks in the edges of the stock bar and adjacent sides of the same peak are engaged by the locating fingers.

26. A machine as specified in claim 24, and wherein the depressions are hex valleys and peaks in the edges of the stock bar and adjacent sides of the same hex peak are engaged by the locating fingers.

27. A machine as specified in claim 24, and

wherein the depressions include centered, partly .formed holes in the sides of the blanks and the sides of said holes are engaged by the locating finger. 1

JOHN J. muanmt 65 25. A machine as specified in claim-24, and 

